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Optimization of manufacturing systems using the Internet of Things /
Optimization of Manufacturing Systems Using the Internet of Things extends the IoT (Internet of Things) into the manufacturing field to develop an IoMT (Internet of Manufacturing Things) architecture with real-time traceability, visibility, and interoperability in production planning, execution, and...
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London, United Kingdom ; San Diego, CA :
Academic Press,
[2017]
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| Temas: | |
| Acceso en línea: | Texto completo (Requiere registro previo con correo institucional) |
Tabla de Contenidos:
- Cover; Title page; Copyright page; Contents; Preface; Chapter 1
- Introduction; 1.1
- The concept of IoT; 1.2
- Existing manufacturing paradigms and their limitations; 1.2.1
- Agile Manufacturing; 1.2.2
- Networked Manufacturing; 1.2.3
- Reconfigurable Manufacturing Systems; 1.2.3.1
- Modularity; 1.2.3.2
- Integrability; 1.2.3.3
- Customization; 1.2.3.4
- Convertibility; 1.2.3.5
- Scalability; 1.2.3.6
- Diagnosability; 1.2.4
- Product-Service System/Industrial Product-Service Systems; 1.2.5
- Manufacturing Grid; 1.2.6
- Cloud Manufacturing; 1.2.7
- Limitations.
- 1.3
- Applications of IoT in manufacturing system1.4
- The conception of IoT-MS; 1.5
- Key features and limitations of IoT-MS; 1.6
- Organization of the book; References; Chapter 2
- Overview of IoT-Enabled Manufacturing System; 2.1
- Introduction; 2.2
- Related work; 2.2.1
- Advanced Manufacturing Paradigms and Technologies; 2.2.2
- Manufacturing Information Standard and Share and Integration Method; 2.3
- Overall architecture of IoT-MS; 2.4
- Integration framework of real-time manufacturing information; 2.4.1
- Framework of Real-Time Manufacturing Information Sharing and Integration.
- 2.4.2
- Real-Time Manufacturing Data Processing, Sharing, and Exchanging Service2.5
- The worklogic of IoT-MS; 2.6
- Description of the core technologies of IoT-MS; References; Chapter 3
- Real-Time and Multisource Manufacturing Information Sensing System; 3.1
- Introduction; 3.2
- Related works; 3.2.1
- Real-Time Manufacturing Data Capturing; 3.2.2
- Sensor Management; 3.2.3
- Manufacturing Information Processing and Sharing; 3.3
- Overall architecture of real-time and€multisource RMMISS; 3.3.1
- Deployment of Multiple Sensors; 3.3.2
- Multiple Sensors Manager.
- 3.3.3
- Multisource Manufacturing Information Processing and€Sharing3.4
- Deployment of multisensors; 3.4.1
- Description of Multisource Manufacturing Information; 3.4.2
- Multiple Sensors Selection; 3.5
- Multiple sensors manager; 3.6
- Multisource manufacturing information capturing and sharing; 3.6.1
- Data Preprocessing; 3.6.2
- Information Encapsulation; 3.6.3
- Manufacturing Information Sharing; 3.7
- Case study; 3.7.1
- Hardware Device; 3.7.2
- Software System; References; Chapter 4
- IoT-Enabled Smart Assembly Station; 4.1
- Introduction; 4.2
- Related works.
- 4.2.1
- RFID-Based Applications in Assembly Line4.2.2
- Assistant Services for Assembly Line; 4.3
- Overall architecture of IoT-enabled smart assembly station; 4.4
- Real-time status monitoring; 4.5
- Real-time production guiding; 4.6
- Real-time production data sharing; 4.7
- Real-time production requeuing; References; Chapter 5
- Cloud Computing-Based Manufacturing Resources Configuration Method; 5.1
- Introduction; 5.2
- Related works; 5.2.1
- Cloud Manufacturing; 5.2.2
- Real-Time Production Information Perception and Capturing; 5.2.3
- Cloud Service Selection and Composition.
- 5.3
- Overall architecture of manufacturing resources configuration method.